Apparatus for timing the passage of a liquid



March 27, 1951 F. A. FAUST 2,546,891

APPARATUS FOR TIMING THE PASSAGE OF A LIQUID Filed Aug. 30, 1945 TO FLOW-DIVERSION VALVE sl as 7 7 a2 3 man g 32 m STEAM HOT WAT E R I3 MILK lNLET- liilliljjijlii :11: :11: 11-5; F I G. 5

0 MILK OUTLET I N VEN TOR.

BY $29M Patented Mar. 27, 1951 APPARATUS FOR TIMING THE PASSAGE OF A LIQUID Frederick A. Faust, Woodbury, Com assignor to:

The Bristol Company, Waterbury, Comm, a corporation of Connecticut Application August 30, 1945', Serial No. 613,569

3 Claims. 1

This invention relates to timing the passage of liquid through a conduit, and more especially to the determination of time during which any port-ion of a circulating liquid i maintained under a predetermined condition. In the pasteurization of milk, for example, a common practice involves continuous circulation of the milk through a circuit or conduit system comprising a heater, a cooler, and an interposed section of conduit in which it is required that the temperature of the milk be maintained within specific limits corresponding topassage for a predetermined period of time. The. U. S. Public Health Service requires that milk bein pasteurized must be held at a temperature of 161 F. or higher for a time period of seconds, which means that it must take 15 seconds. for any selected portion of the milk to travel from the heater outlet through the intermediate conduit section to the inlet of the cooler. This represents a reduction in flow rate considerably below thev velocities ordinarily used in the piping system; and the slowing down is accomplished by utilizing, for the conduit, a section of pipe having an enlarged section and providing sufficient length to give a 15 seconds time of passage. Part of the rigorous inspection system of the Health Service ineludes a check. of. the holding time to make sure that the milk remains at a pasteurization temperature for at least 15 seconds.

. Various expedients have been tried for the purpose of effecting a simple test on the holding time, some of these includin filling the piping system with Water and injecting a color solution whose rate of progress through the system can be observed, while others involve introducing a slug of material which affects the electrical conductivity of the circulating liquid to an extent Where the more or less abrupt change in conductivity may be observed successively at two separated points, and utilized through suitable instrumentalities for the purpose of determining the time of passage of the liquid through the conduit. It will be apparent that tests of this nature require either that the milk stream under conditions of pasteurization may be de It is a further object to provide means where-= by determination of the: holding time may be Wholly automatic in operation.

it is. a. further object. to provide means whereby the holding. time may be permanently re;- corded on a graphic chart available for future reference.

In carrying out the purposes or the inventionit is proposed to utilize temperature-sensitive elements inserted in the milk stream at spacedapart locations, and to obtain a measure of the time interval between responses of the respective elements to a momentarily introduced fluctuation of the temperature of the circulating stream of liquid.

In the drawings,

Fig. l is a diagrammatic representation of a milk pasteurization system including the invention in one of several possible forms.

Figs. 2 and 3 are diagrams illustrating alternative forms of the invention.

Referring now to the drawings; in Fig. l are shown three interrelated heat exchangers, these be temporarily replaced by Water, which, differ- 7 ing in density and viscosity from the milk, may have quite different flow characteristics under identical pumping and conduit conditions, or that the milk be momentarily contaminated by a foreign substance, of which it will, of course, be necessary that all traces be removed before normal operating conditions can be reestablished.

It is an object of the present invention. to provide means whereby the holding time of the milk being respectively a. heater 10 a regenerator H and a cooler i2. The interconnection of these units is as follows: A supply of milk is. continuously admitted to the regenerator H- through a conduit 63, whence it passes through a heat exchange coil [-4 within the regenerator and thence through a conduit l5, including a cir culatin pump I6, through a heat-exchange coil I] in the heater I0, and thence through an extended conduit or holding section 18 to reenter the regenerator H and pass through a coil I9 in thermal association with the coil M. The stream of. milk emerging .irom the coil I9. is carried by a conduit 20 through the cooler i2 Where it is exposed in heat-exchange relationship to a flow of brine in a conduit 21, the milk emerging through a conduit 22 which forms the final outlet of the system.

Within the heater H} is a heat-exchange coil 25 in thermal association with the coil ll, and. adapted to carry a circulating flow of hot water, whereby to raise the temperature of the milk in the coil I! to a suitable value. The temperature of the water Within the coil 25 is regulated by the controlled admission of steam from a source 26 through valve 21. forming a part. of a. regu-v lator 28, and then through a conduit 29 into the circulating system of which the heat exchange coil 25 forms. a part. The. regulator valve 21 is nearest the outlet of the heater I is inserted a temperature-sensitive thermometer bulb 3|, whereby to provide a measure of the temperature of the milk entering the holder section. At the opposite extremity of the holder section I8 is a similar temperature-sensitive bulb 32, adapted to provide a measure of the temperature of the milk as it leaves the section 18 to enter the coil IS in the regenerator H. The bulb 3! is operably connected by means of a capillary tube 33 to the regulator 28 whereby to render the action of the valve 21 responsive to the temperature of the bulb 3i and thus, acting to wellknown principles of automatic control, to make possible the regulations of the temperature of the milk emerging from the heater It to a definite and predetermined value. The bulb 3| communicates also by means of a capillary tube 34 with a pressure switch 35, having electrical contacts, and adapted to complete a circuit between the same when the temperature to which the bulb 3! is exposed exceeds a predetermined value slightly above the normal pasteurization temperature. A pressure switch 36 operatively connected to the bulb 32 by means of a capillary tube 31, is provided with electrical contacts adapted normally to be in a closed circuit, and to open said circuit when the temperature to which the bulb 32 is exposed slightly exceeds said pasteurization temperature.

A'time recording instrument 40 is provided with a chart element 4| continuously driven at a uniform speed by means of a clock or similar time motor 42. Pivotally mounted within the instrument 40 and adapted for deflection through a limited angle is a pen arm 43 provided with a pen or stylus 44 whereby to inscribe on the chart 4| a record of'its deflections about its pivotal mounting. Carried by the pen arm 43 is a ferromagnetic armature 45 movable in the field of an electromagnet 46, and normally restrained away from said magnetagainst a fixed stop 41, by means of a spring or equivalent resilient'element not shown in the drawing. The magnet 46 is adapted for energization from a battery or other source of electrical power through a suitable circuit, including in series the contacts of the pressure switches and 36.

v For the purpose of explaining the operation of the apparatus in the form shown in Fig. 1, it may be first assumed that there has been established a steady-state condition wherein, under influence of the pump I6, the milk is circulating through the system, entering at the conduit [3 and leaving at the conduit 22 as hereinbefore explained, and that by means of heated water circulating in the coil '25 of the heater I0 and having its temperature controlled by the regulated admission of steam from the source 26, the stream of circulating milk is maintained at a' suitable pasteurizing temperature as determined by the bulb 3l to which the regulator 28 is'sensitive. As hereinbefore pointed out, it is required that the milk be maintained at a pasteurization temperature for a predetermined those parts of the circulating system wherein its temperature is allowed to fall. The fulfillment of this condition is assured by coordinating the temperature measurements obtained at the bulbs 3i and 32, which correspond to the extremities of the holding section 8, to the extent that the temperature to which the latter bulb is exposed must not fall below the pasteurization value, and that the rate of flow of the milk stream is such 'that any selected portion thereof must require at least i5 seconds to pass from the bulb 31 to the bulb 32. Under normal conditions, as point-' ed out, the contacts of the pressure switch 35, which is responsive to the temperature at the bulb 3!, will stand open, while those of the switch 3%, responsive to the temperature at the bulb 32, will stand closed. Thus, the circuit of the eleotromagnet 46 in the time recorder 43 being incomplete, said magnet will remain deenergized and, with rotation of the chart 4!, the pen 44 will tend to scribe on said chart an unbroken circular line. For the purpose of making a test in order to determine that a time interval of the required duration elapses between the passage of milk from one to the other. of the bulbs, the temperature of the stream of milk emerging from the heater is momentarily raised to a value at which the contacts of the switch 35 will be closed. This may be done in any one of a number of ways. For example, the valve 36 may be manually opened, bypassing the regulating valve 27,,and allowing a surplus of steam to be admitted to the water circulating system, whereby to increase its temperature, and therefore that of the milk in the coil H, above the value to which the regulator 23 is set. Upon the heated portion of the milk stream reaching the bulb 3!, the contacts of the switch 35 will be closed, completing a circuit through the normally closed contacts of the switch 36 and the electromagnet 46, whereby current from the battery 50 may pass through said electromagnet, energizin the same, and causing the pen 44 in the instrument 40 to be deflected laterally upon the surface of the chart 4|, introducing a jog in the record corresponding to the time at which the switch 35 was actuated. This condition will continue until the overheated portion of the milk stream has passed through the holding section l8 and reaches the bulb 32, whereupon the switch 35 will be actuated in a sense to separate its electrical contacts, interrupting the magnet circuit, and allowing the pen 44 to be restored to its normal position on the chart, and introducing a second jog in the record. Such jogs or ofisets in the record, corresponding to the actuation of switches 35 and 36 in succession, are indicated at a. and b in Fig. 1. There is thus produced on the chart 4| a permanent record of the holding period; and this may at any time be read or scaled from the chart as a check upon established flow conditions.

I In Fig. 2 is shown a modified form of the invention, wherein the pressure switches of Fig. l are replaced by indicating controllers, and the time recorder by an indicating time register. The bulbs 3i and 32, which are installed identically to the manner shown in Fig. 1, whereby to be exposed to milk temperatures at the inlet and outlet ends, respectively, of the holding section, are connected respectively to indicating controllers 55 and 56. The controller 55 is provided with an angularly deflectable pointer 57 movable with changes in the temperature to which the bulb 3| is exposed, and adapted to provide a measure of said temperature upon a grads uated scale 58. The pointer 51 carries an insulated electrical contact 59. Mounted coaxially with the pointer is an adjustable arm 60 having an index portion juxtaposed to the scale 58 and carrying an electrical contact 5| adapted to cooperate with the contact 59 in closing an electrical circuit when the temperature of the bulb 31, and indicated by the pointer 51 on the scale 58, rises to the value established by the setting of the arm 69 with respect to the same scale. The contacts carried by the pointer 51 and the arm 60 are connected by flexible conductors to suitable terminals on the controller 55, whereby said contacts may be incorporated in an external circuit.

The controller 56 includes an angularly deflectable pointer 62 providing on a graduated scale 63 a measure of the temperature to which the bulb 32 is exposed, and carrying an insulated contact 54. An arm 65 adjustable coaxially with the pointer 62, carries a contact 65, normally engaging the contact 64, and adapted to be separated therefrom when the temperature indicated by the pointer 62 exceeds a value established by the setting of the arm 65 with respect to the scale 63. Contacts 64 and 66 are connected by flexible conductors to suitable terminals in the controller 56, whereby to be incorporated in an external circuit.

A time-lapse register or chronometer 7i! cornprises a constant-speed motor (not shown in the drawing) adapted to advance an indicating pointer H with respect to a continuous scale 12, and includes an electrical circuit leading to external terminals 13, whereby the. advance of said pointer will be a measure of the time duration of energization of said circuit. The internal mechanism may take the form of either a con stantly running spring-driven clock, having an escapement, and provided with an electrically actuated clutch, whereby the pointer I! is thrown into engagement with the clock only during such time as the circuit is energized, or it may cone sist in a conventional synchronous clock motor as, for example, the Telechron type, adapted for energization from a constant. frequency alter hating-current circuit, and to operate at. a. constant speed during such energization. Both these types. of time meters. are. well known, and, being available in many commercial, forms, need not here be further described.

The electrical connections by means of which the combination set forth in Fig. 2 is rendered operative. consists. in conductors whereby the terminals of the controllers 55 and 55v and the terminals 13. of the chronometer 10 are connected in series across a suitable source '14. of electrical energy. Assuming that they motor in the. chronometer is of the synchronous clock type, the source will be alternating current, of a regulated frequency, and is so indicated.

Operation of the apparatus; shown in Fig, 2. is. in all respects similar to that of the. system shown in Fig. 1. Under steadystate conditions, the adjustable arms 50 and 65 in the respective controllers would be set slightly above the normal pasteurization temperature, so that the con tacts 59--6l in the controller 55 would be open, and the contacts 64-88 in the controller 5.5 closed. The circuit of the chronometer it being incomplete, the pointer of the same will remain at rest. For the purpose of making a check test on the holding time, the temperature of the circulating milk is momenta *ily raised by means set forth in the explanation of Fig. l,

causing the controller 55 to respond and close its contacts 59-1. A circuit will thus be com pleted between the source 14 and the chronometer 10, where by the pointer "H will start to advance along the scale 12. After a lapse of time sufficient for the overheated portion of the milk to pass through the length of the holding section, and reach the bulb 32, the controller 55 will respond, causing the contacts 64-56 to be separated, opening the circuit, and bringing the pointer H to rest. The time of advance of said pointer, as measured along the scale 12 will thus become a measure of the time required for milk to pass from end to end of the holding section in the pasteurization system.

It will be obvious that in either of the embodiments of the invention, as shown in Figs. 1 and 2, it would be possible by suitable rearrangement of contacts in the pressure switches or the controllers, to render the same responsive upon a momentary fall, rather than a rise, in the temperatures of the circulating milk. The only reason for favoring the latter lies in the fact that, whereas an increase in temperature tends to accelerate pasteurization, and, if not too pronounced, has no deleterious efiects on the milk, a fall in temperature will inhibit the desired action, resulting possibly in a sub-standard product.

In Fig. 3 is shown a form of apparatus in which the novel features of the invention. are combined with instrumentalities commonly found in conventional installations of pasteurizing equipment, and whereby the advantages accruing to the in vention may be obtained in a novel manner, and with a minimum change from standard design, As in the hereinbefore described embodiments, the temperature-sensitive bulbs. 3| and 32 are installed at inlet and outlet ends respectively of a holding section, to respond to the temperatures of the milk stream as it passes. those points in the system. A common accessory of milk pasteurization systems is a flow-diversion valve, installed near the outlet end of the holding section and adapted upon a fall in the temperature of the milk stream at that point below the required value for correct pasteurization, to act automatically and divert the flow of milk from its. normal course, so that insufficiently pasteurized milk will not be delivered as a. completely treated product. Such a valve in its application to a. pasteurization system is fully described and set forth in U. S. Letters Patent No. 1,859,504, granted May 24, 1932, to H. S. Fielder. Inv order that such a valve be made automatic in its operation, it is customary to make use of a controlling instrument responsive to temperature conditions at a, location corresponding to that of the bulb 32 in the several embodiments of the present invention; and such an instrument may expediently take the form of a recording thermometer, providing a continuous record of temperatures, and also equipped with contact means whereby to render the flow-diversion valve operative in the event the outlet temperature should for any reason he reduced below the. permissible pasteurization value.

In the form of the invention shown in Fig. 3 a combined recording and controlling instrument 15 is provided with a Bourdon spring or equivalent 16 adapted for actuation by the temperature sensitive bulb 32, and also with a recording pen IT adapted for actuation thereby to inscribe on a continuously advancing chart: 18 a permanent record of temperature values attained by said 7 bulb. The chart (8 may be driven by any suitable form of clock or timing motor, and is indicated as advanced by a synchronous clock motor 19 receiving power from an alternating-current source 89 of regulated frequency. Included in the instrument are two electrically independent sets of contacts 8! and 32 both normally maintained in a closed position and adapted to be opened by a tappet member 83 movable with the recording pen '5? whenthe temperature to which the bulb 32 is exposed falls below the minimum value permissible for effective pasteurization.

A recording instrument 85 is provided with a Bourdon spring 88 adapted for actuation by the temperature sensitive bulb 3 i, and also with a recording member 8? adapted for actuation thereby to inscribe on the surface of a movable chart 38 a.

trace of the positions it may assume with variation of temperature to which said bulb may be exposed. The chart 88 is adapted to be advanced at a relatively high speed (e. g. 1 revolution per minute) by means of a constant-speed motor 39, which may expediently be of the synchronous type, when said motor is energized from a suitable alternating-current power source which may be (though not necessarily) the source 8 3. A

- contact element 98 mechanically associated with the recording member 8? is normally maintained thereby in an open condition so long as the temperature at the bulb 3! is at or above the value required for pasteurization, and will be closed thereby when said temperature falls below the permissible value. The motor 89 is connected to the source 89 through a circuit including the contacts 82 and 9b in series. Contact 85 is connected in the actuating circuit of the flow-diversion valve, not shown in the drawing, to operate the same in the manner hereinbefore set forth upon a fall of outlet temperature below the required value; and if circuit conditions permit, the functions of contacts 8! and 82 may be incorporated in a single contacting unit.

Under normal operating conditions the apparatus shown in Fig. 3 will function in the following manner: The instrument l5 under the influence of the bulb 32 will produce on the chart 78 a'continuous record of the temperature at said bulb as drawn by the recording member ii. So long as the temperature is suificiently high for pasteurization purposes, the tappet 63 will remain out of engagement with the associated contact mechanism, and the contacts 89 and 82 will be closed. The recording member 8? in the instrument 85 will rest on the chart 83 in a position corresponding to the inlet temperature to which the bulb Si is exposed. The contacts 98 being open, there will not be a complete circuit to the motor 89, which will consequently remain at rest; and, since the chart 88 is not advancing, the recording element, with such variations of temperature as may occur, will produce thereon a short radial line as at a. With the arrangement shown, the apparatus indicated in Fig. 3 is adapted for making a test of holding time by the operator momentarily lowering the temperature of the mill: emerging from the heater. Referring for the moment to Fig. 1, it will be obvious that this can be accomplished by closing the valve 39' in the conduit 29, whereby to interrupt the flow of steam to the circulating water in the conduit 25. As the cooled portion of milk reaches the bulb 3! after its emergence from the heater, the recording element 8? in the instrument 85 will deflect in a down-scale sense through adistance corresponding to the temperature reduc-- tion, and this will continue until the contacts 90.

have been closed. There will now be a complete circuit through the contacts 82 and in series,

. whereby the motor 89 will be energized from the source 86, and will cause the chart 38 to be advanced at a relatively high speed, the recording element 81 producing on said chart a trace of its position. The advance of the chart88 will thus continue until, with the cooled'portion of the milk reaching the bulb 32 after its passage through the holding section, the tappet 83' is brought into engagement with the associated contacting elements, causing contacts 8i and 82 both to be opened. Separation of the contacts 82 will interrupt circuit to the motor 89, thus bringing the chart 88 to rest and terminating the graph produced thereon by the recording member 8'|- during the advance of said chart. Incidentally,

opening of the contacts 3i will operate the flow diversion valve, as hereinbefore explained, so that any portion of the milk which may have been adversely affected by the lowering of temperature will be prevented from reaching the outlet of the system. As normal operation is restored,

with a consequent increase of temperature measured by the bulb 3|, the recording member 81 moving radially across the now stationary chart 88 will produce a distinctive terminating mark,

: as at b, on the graph inscribed thereon, whereby the length of time during which the motor 89 was in operation, corresponding to the holding time in the pasteurization system, may be precisely determined by inspection of the chart,

: which chart may be filed for record purposes.

The terms and expressions which I have employed are used as terms of description and not of limitation, and I have no intention, in the use of such terms and expressions, of excluding any equivalents of the features shown and described or portions thereof, but recognize that various modifications are possible within the scope of the invention claimed.

I claim:

1. Apparatus for measuring the time required for a charge to flow from one location to another in a conduit, comprising temperature-responsive means adapted to be positioned at the first location, other temperature-responsive means adapted to be positioned at the second location, recording means comprising a pen and a chart movable relatively to each other, means controlled by one of said temperature-responsive means for continuously operating said pen to record upon said chart, electrical means for actuating said chart, means controlled by the first temperature-responsive means in response to a change in temperature of said charge at said first location for energizing said electrical means to elTect movement of said chart, and means controlled by the second temperature responsive means in response to a change in temperature at said second location for deenergizing said electrical means to stop movement of said chart.

2. Apparatus for measuring the time required for a charge to flow from one location to another in a conduit, comprising temperature-responsive means adapted to be positioned at the first location, other temperature-responsive means adapted to be positioned at the second location, recording means comprising a pen and a chart movable relatively to each other, means controlled by one of said temperature-responsive means for continuously operating said pen to record upon said chart, means for imparting motion to said chart at substantially constant speed, electrical switch means for controlling said motion-imparting means, and means controlled by the temperature-respcnsive means at said 10- cations for actuating said switch means to movement of said chart by said motion-imparting means for an interval between suecessive changes in temperature at said location respectively.

3. Apparatus for measuring the time required for a charge to flow from one location to another in a conduit, comprising temperature-responsive means adapted to be positioned at the first location, other temperature-responsive means adapted to be positioned at the second location, recording means comprising a pen and a chart movable relatively to each other, means controlled by one of said temperature-responsive means for continuously operating said pen to record upon said chart, normally ineffective means for imparting motion to said chart at substantially constant speed, electrical switch means controlled by the first temperature-responsive means in response to a change in temperature of said charge at said first location for rendering said motionirnparting means efiective to initiate movement of said chart, and other electrical switch means controlled by the second temperature-responsive means in response to a change in temperature at said second location to restore said motion-imparting means to ineffective condition to terminate movement of said chart.

FREDERICK A. FAUST.

CETED The following; references are of record in the 02" this patent:

UNITED STATES PATENTS Number Name Date 1,222,492 Thomas Apr. 10, 1917 1,245,688 Crewson Nov. 6, 1917 1,614,702 Wilson Jan. 18, 1927 1,616,481 Allen Feb. 8, 1927 2,353,382 Barrett July 11, 1944 

